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Showing 1–6 of 6 results
Advanced filters: Author: Alan M. Litke Clear advanced filters

  • Interaural timing and level differences had been considered the two important cues for horizontal sound localization. Here, the authors show that the third cue, spectral information, plays an essential role in the encoding of the azimuthal auditory map in the mouse superior colliculus.

    • Shinya Ito
    • Yufei Si
    • Alan M. Litke
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-12

  • The visual signals transmitted by the retina to the brain are affected by random drift in eye position, but the impact of this on visual capabilities is not clear. Here, the authors show that the decoding of images from evoked spike trains recorded in the macaque retina improves with fixational eye movements, even when the eye position is unknown.

    • Eric G. Wu
    • Nora Brackbill
    • E. J. Chichilnisky
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-15

  • Colour perception arises from the comparison of signals from different cone types, but how these inputs are combined by ganglion cells, which transmit the output of the retina, has been an issue of contention. Using large-scale multi-electrode arrays and fine-grained visual stimulation, these authors map out the locations and types of single-cone inputs to entire populations of ganglion cells, resulting in input–output maps at an unprecedented resolution and scale.

    • Greg D. Field
    • Jeffrey L. Gauthier
    • E. J. Chichilnisky
    Research
    Nature
    Volume: 467, P: 673-677

  • Szuts et al. have developed a wireless neural recording system that outperforms existing rodent telemetry systems in either channel count, weight or transmission range. They show that it can be used to record brain signals in animals outdoors and in tunnels.

    • Tobi A Szuts
    • Vitaliy Fadeyev
    • Markus Meister
    Research
    Nature Neuroscience
    Volume: 14, P: 263-269

  • The functional significance of correlated firing in a complete population of macaque parasol retinal ganglion cells using a model of multi-neuron spike responses is analysed. Fitting the physiological data to a model of multi-neuron spike responses, it is found that a significant fraction of what is usually considered single-cell noise in trial-to-trial response variability can be explained by correlations, and that a significant amount of sensory information can be decoded from the correlation structure.

    • Jonathan W. Pillow
    • Jonathon Shlens
    • Eero P. Simoncelli
    Research
    Nature
    Volume: 454, P: 995-999